Nat. Rev. Cardiol. doi: /nrcardio

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Nat. Rev. Cardiol. doi: /nrcardio

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Figure 1 Lung and pleural ultrasonography

Nat. Rev. Cardiol. doi: /nrcardio

Figure 2 Different manifestations of myocardial ischaemia

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Figure 5 BMI and cardiorespiratory fitness levels

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Figure 4 BMI and mortality in patients with heart failure

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Figure 1 Mechanisms of metastatic growth in the heart

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Figure 3 Global rates of sodium, fruit, and vegetable intake

Figure 3 Ischaemic outcomes in the ST-segment elevation myocardial

Figure 2 Size categorization of airborne pollutants

Nat. Rev. Cardiol. doi: /nrcardio

Figure 2 Three-year survival rates on the basis of body composition

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Nat. Rev. Cardiol. doi: /nrcardio

Figure 2 Ischaemic and bleeding outcomes in the major clinical trials

Nat. Rev. Cardiol. doi: /nrcardio

Nat. Rev. Cardiol. doi: /nrcardio

Nat. Rev. Cardiol. doi: /nrcardio

Figure 1 Cardiovascular risk and disease across the life-course

Figure 10 The energy depletion hypothesis

Figure 1 Decision tree integrating the assessment,

Nat. Rev. Cardiol. doi: /nrcardio

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Nat. Rev. Cardiol. doi: /nrcardio

Figure 3 Neural crest cell migration

Figure 2 Global cost of HF per capita in 2012

Nat. Rev. Cardiol. doi: /nrcardio

Figure 1 Manual thrombus aspiration

Nat. Rev. Cardiol. doi: /nrcardio

Nat. Rev. Cardiol. doi: /nrcardio

Figure 3 Challenges for big data applications in cardiovascular care

Figure 5 Genotype-positive hypertrophic

Nat. Rev. Cardiol. doi: /nrcardio

Nat. Rev. Cardiol. doi: /nrcardio

Figure 4 Gross and histopathological characteristics of cardiac myxoma

Nat. Rev. Cardiol. doi: /nrcardio

Nat. Rev. Cardiol. doi: /nrcardio

Figure 2 Absolute difference in seasonal peak

Nat. Rev. Cardiol. doi: /nrcardio

Figure 4 Observational studies on multiple treatment strategies

Figure 6 Cardiac fibroma

Nat. Rev. Cardiol. doi: /nrcardio

Nat. Rev. Cardiol. doi: /nrcardio

Nat. Rev. Cardiol. doi: /nrcardio

Nat. Rev. Cardiol. doi: /nrcardio

Figure 1 Ventricular end-diastolic pressure–volume relationship curves

Figure 6 The haemodynamic effects of

Nat. Rev. Cardiol. doi: /nrcardio

Figure 4 Electrocardiogram patterns associated with Brugada syndrome

Nat. Rev. Cardiol. doi: /nrcardio

Figure 2 Impaired mitochondrial capacity and function in heart failure

Nat. Rev. Cardiol. doi: /nrcardio

Nat. Rev. Cardiol. doi: /nrcardio

Nat. Rev. Cardiol. doi: /nrcardio

Nat. Rev. Cardiol. doi: /nrcardio

Nat. Rev. Cardiol. doi: /nrcardio

Nat. Rev. Cardiol. doi: /nrcardio

Nat. Rev. Cardiol. doi: /nrcardio

Nat. Rev. Cardiol. doi: /nrcardio

Nat. Rev. Cardiol. doi: /nrcardio

Cardiac Purkinje cells

Figure 2 Metabolic shift in heart failure

Presentation transcript:

Nat. Rev. Cardiol. doi:10.1038/nrcardio.2015.193 Figure 3 Spontaneous Ca2+ activity in Purkinje cells after myocardial infarction Figure 3 | Spontaneous Ca2+ activity in Purkinje cells after myocardial infarction. Ca2+-release events in cells isolated from dog hearts are sampled along a 30 μm linescan (insert). The time course of cytosolic calcium (Cai) variations, expressed in F/Fo ratio units on a pseudocolour scale, is shown in sequences of 3D plots. a | Cells isolated from normal dog heart. b | Cells isolated from dog heart 48 h after myocardial infarction. During a 6 s sequence, the spark and wavelet rates are significantly increased after myocardial infarction, and wavelets have a larger amplitude than those seen in a normal heart (arrow). B. Stuyvers and P. A. Boyden (Columbia University, New York, USA) unpublished data. Haissaguerre, M. et al. (2016) Ventricular arrhythmias and the His–Purkinje system Nat. Rev. Cardiol. doi:10.1038/nrcardio.2015.193